High resolution laser spectra of TiCl and TiBr have been taken in the blue region of the spectrum. The titanum monohalide molecules were produced by laser vaporization of a Ti rod followed by reaction with either $CHCl_{3}$ or $CH_{3}Br$ in a pulsed supersonic jet source. The TiCl molecule was recently studied by FT $spectroscopy^{a}$ where the electronic transition was identified as $^{4}\Gamma - ^{4}\Phi$ consistent with that of TiF. In the paper, band-by-band case (c) rotational analyses of the (0,0) $^{4}\Gamma_{5/2} - ^{4}\Phi_{3/2}$, $^{4}\Gamma_{7/2} - ^{4}\Phi_{5/2}$ and $^{4}\Gamma_{9/2}-^{4}\Phi_{7/2}$ subbands were given. The authors observed no subbands which would provide the information crucial to determining the spin-orbit spacing. We have observed this same TiCl electronic transition with our apparatus and report here the observation of the (0,0) $^{4}\Gamma_{5/2} - ^{4}\Phi_{5/2}$ and $^{4}\Gamma_{7/2} - ^{4}\Phi_{7/2}$ subbands, in addition to those given above, and provide a case (a) molecular analysis. The same electronic transition for TiBr has also been recorded. Although the spectrum is much more congested than that of TiCl, we have managed to assign a number of the subbands and are also able to provide a case (a) analysis for this molecule